KR100621791B1 - Decanter Apparatus and Wastewater Treatment Tank having The Same - Google Patents

Abstract

There is provided a decanter and a sewage treatment tank having the same, which are provided in a sewage treatment tank, in particular, a continuous batch single reaction tank (SBR) and used for discharge of supernatant water.

The decanter device is connected to a support shaft connected to a driving means disposed on one side of the sewage treatment tank on one side, and to a discharge pipe connected to the discharge means through the sewage treatment tank, and to a discharge pipe through which the introduced supernatant flows. Rotating discharge body provided so as to rotate across the sewage treatment tank without leaking, and a portion of the rotating discharge body is cut and formed, and the position of the upper discharge water is configured to discharge only the supernatant water during rotation, and the rotary discharge body The other side is connected to the discharge pipe is configured to include a supernatant discharge means configured to discharge the supernatant to the outside.

According to the present invention, when the discharge of the supernatant water discharges the supernatant while effectively blocking the scum outflow of the sediment or water level, while the sediment is prevented during the sedimentation, in particular, the structure is simpler than the basic decanter A more improved effect of facilitating device management, such as manufacturing, installation, and maintenance, while providing cost savings.

Single Reactor, Continuous Batch Single Reactor, SBR, Roll Pipe, Sewage Treatment System

Description

Decanter Apparatus and Sewage Treatment Tank with Same {Decanter Apparatus and Wastewater Treatment Tank having The Same}             

1 is a schematic diagram showing a continuous batch single reaction tank (SBR) in a typical sewage treatment tank.

Figure 2 is a perspective view showing a state installed in the decanter device and sewage treatment tank according to the present invention

3 is a view showing a state of use in a continuous batch single reaction tank of the sewage treatment tank through the decanter device of the present invention,

(a) is a perspective view showing the operation of the decanter in the precipitation step

(b) is a perspective view showing the operation of the decanter in the discharge step.

Figure 4 is a perspective view showing the overall configuration of the present invention decanter device

Figure 5 is a structural diagram showing a decanter device of the present invention

Figure 6 is a main part showing another embodiment of the present invention decanter

7 is a perspective view showing another embodiment further comprising sterilization means in the decanter device of FIG.

Figure 8 shows the different forms of the rotary discharge body in the present decanter device,

(a) is a perspective view showing a rectangular body

(b) is a perspective view showing a polygonal body

(c) is a perspective view showing a triangular body

Explanation of symbols on the main parts of the drawings

1 .... decanter 2 .... sewage treatment tank

10 .... Driving means 12 .... Rotary disc

14 .... drive cylinder 30 .... rotating discharge body

32 .. Support shaft 34 .. Discharge pipe

50 .... outlet 70 .... outlet

72 .... rotary joint 74 .... outlet valve

90a, 90b .... Leakage prevention means 92, 100 .... Sealing member

94 .... Sealing body 96 .... Bearing

98 .... disc 99 .... fixed plate

110 ... sterilization means 112 ... holes

114 .... Silver coating layer

The present invention relates to a decanter apparatus provided in a sewage treatment tank and used for discharge of supernatant, and more particularly, the position of the supernatant inlet corresponding to the sedimentation and discharge steps in a sewage treatment tank, in particular, a continuous batch reactor. Through the variable position type discharge pipe means for varying the discharge of the supernatant, the supernatant is discharged while the sediment or scum flow out of the supernatant is effectively blocked, while the sediment is prevented from being precipitated, and especially in the basic decanter. Compared to the decanter device and the sewage treatment tank having the same, the structure is simple and easy to manage the device, such as manufacturing, installation and maintenance.

In general, pollutants in sewage are largely divided into nitrogen and phosphorus, which are organic matter expressed in biochemical oxygen demand (BOD), and in most sewage treatment plants, organic matter is mainly treated as nutrients. Much of the nitrogen and phosphorus are often not removed sufficiently and are often released into rivers, lakes, or oceans.

However, when nitrogen and phosphorus contained in the wastewater are released into the water system, eutrophication occurs in rivers and lakes, and when it enters the ocean, red tide occurs. Severe water pollution, increased water pollution, and limited use of drinking water and waterways.

Therefore, in order to prevent subsidence of the water system, nitrogen compounds or phosphates, which are nutrients, should be sufficiently removed in a water treatment plant, for example, in a sewage treatment plant, and nitrogen compounds or phosphates, which are nutrients, in a sewage treatment plant for such wastewater treatment. In order to remove the sewage, the sewage, etc., to be treated is treated through an anoxic reaction process, an anaerobic reaction process, and an aerobic reaction process.

However, the anaerobic, anaerobic, and aerobic processes for removing nitrogen and phosphorus, which are nutrients in the sewage, are performed by using a continuous flow advanced treatment facility and sequentially performing an anaerobic, anaerobic and aerobic processes in a single reactor. It can be divided into a method using a sequencing batch reactor (SBR) (hereinafter referred to as 'SBR').

In this case, in the case of continuous flow advanced treatment, each reactor needs to be installed. Therefore, more complicated equipment is required and more maintenance cost is required to maintain it, and in the case of SBR, continuous flow type is required. The size of the reactor itself is larger than that of each of the highly treated reactors, but the overall equipment is simple, resulting in low cost of ownership.

In addition, the SBR is an inflow and outflow of wastewater in one single reaction tank, and continuously implements an anaerobic, anaerobic, and aerobic reaction (conditions) at a time difference, an intermittent reactor or an inflow-outflow tank (Fill-and) (Draw Reactor).

In other words, the continuous flow sewage treatment is to operate a plurality of reaction tanks in the spatial surface, the sewage treatment using SBR is a difference in the operation of the time concept of processing several reaction steps in a single reaction tank in time difference.

In addition, the SBR was developed in the early 20th century, but since several reactions are implemented in a single reactor, there is a problem in the treatment of sludge or the operation of the reactor, and it has not been put to practical use in the environmental field. Interest is growing.

That is, the sewage treatment SBR (100) as shown in Figure 1, when the sewage (W) is introduced into the SBR (100) through the sewage inlet pipe 110, the oxygen supply through the diffuser 120 Accordingly, an anoxic reaction step or an aerobic reaction step is performed to remove nitrogen by denitrification and nitrification, while phosphorous release of microorganisms in the anaerobic reaction step and excess absorption of phosphorus released in the aerobic reaction step and excess sludge through the sludge discharge pipe 130 are performed. Phosphorus is removed by the removal of the organic matter, decomposition of the organic material by the microorganism is performed, precipitation of the microorganism sludge is performed in the precipitation step, and discharge of the supernatant water through the decanter 140 is performed in the discharge step.

On the other hand, although the continuous flow sewage treatment tanks of the sewage treatment facilities are not shown in the drawing, because anaerobic, anaerobic, aerobic, and sedimentation tanks are spatially arranged, only sedimentation is performed in the sedimentation tank to block the outflow of sediment during discharge of the supernatant. However, as shown in FIG. 1, in the SBR 100, since several steps and reactions are usually performed in one tank, the precipitate is easily mixed when discharged from the supernatant, and for discharging the supernatant without outflow of the precipitate. Installation of the decanter 140 is essential.

However, although schematically illustrated in FIG. 1, the decanter 140 provided in the conventional SBR 100 has a complicated structure and difficult to completely discharge the sediment, and has a considerable manufacturing or installation cost, in particular through a decanter. There were various problems such as the diffusion phenomenon of sediment by the built-in pump during discharge of the supernatant.

In addition, when a conventional decanter 140 is used, a substance having a specific gravity less than that of water suspended on the water surface of the SBR 10, for example, a scum 150 such as oil or a plant component is often discharged together with the supernatant water. There was another problem that leaked.

Therefore, no sediment and scum are discharged when the supernatant is discharged from the sewage treatment tank in which sediment such as SBR is precipitated in the same reactor, and in particular, as a simple structure, it is easy to manufacture and install, thus reducing the overall cost by simplifying maintenance. Improved decanters have been desired.

The present invention has been made to solve the above-mentioned problems, the purpose of which is to change the position of the supernatant inlet of the supernatant inlet corresponding to the sedimentation and discharge step in the sewage treatment tank, in particular, a continuous batch single reaction tank. By means of discharge, the supernatant is discharged by effectively blocking the scum outflow of sediment or water level during discharge of the supernatant, while the accumulation of sediment is prevented during sedimentation. And, to provide a decanter device easy to manage the device, such as maintenance, and a sewage treatment tank having the same.

The present invention as a technical configuration for achieving the above object, in the decanter provided in the sewage treatment tank to discharge the supernatant,
One side is connected to the support shaft is connected to the drive means disposed on one side of the sewage treatment tank, the other side is connected to the discharge means through the sewage treatment tank, and the discharged pipe flowing in the supernatant introduced into the sewage treatment tank Rotating discharge body provided to rotate without leaking across;
A portion of the upper portion of the rotating discharge body is formed by cutting, the position of the upper portion of the discharge water is configured to discharge only the upper water discharge; And,
A supernatant discharge means connected to the other side discharge pipe of the rotary discharge body and configured to discharge the supernatant externally;
It provides a decanter device configured to include.

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At this time, the rotation discharge body may be composed of one of a cylindrical body, a rectangular body, a polygonal body, and a triangular body hollow inside.

Preferably, the support shaft and the discharge pipe, and the passing portion of the sewage treatment tank is provided with a combined leakage preventing means for preventing leakage and rotation.

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In addition, the drive means is composed of a vertically provided drive cylinder is eccentrically connected to the rotating disc fixed to the end of the support shaft is configured to rotate the rotary discharge body in the sewage treatment tank.

The discharge means includes a rotary joint connected to the other discharge pipe of the rotary discharge body and a discharge valve connected to the internal flow of the supernatant so that the supernatant feed pipe is connected thereto.

At this time, the discharge port on the rotating discharge body may be further provided with sterilization means for sterilization while passing the supernatant.

In addition, as another technical aspect of the present invention, the decanter device is provided therein, the continuous batch type in which the inflow step, aerobic, anaerobic, anaerobic biological reaction step, precipitation step, and discharge step is carried out in a bath in time difference Provide a sewage treatment tank consisting of either a single reaction tank (SBR) or a settling tank where precipitation and supernatant discharge are performed.

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Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing a state installed in the decanter device and the sewage treatment tank according to the present invention, Figure 3 is a view showing the state of use in a continuous batch single reactor of the sewage treatment tank through the decanter device of the present invention, Figure 3a Is a perspective view showing the operation of the decanter in the precipitation step, Figure 3b is a perspective view showing the operation of the decanter in the discharge step, Figure 4 is a perspective view showing the overall configuration of the decanter of the present invention, Figure 5 is a decanter of the present invention Figure 6 is a structural view, Figure 6 is a main view showing another embodiment of the decanter of the present invention, Figure 7 is a perspective view showing another embodiment further comprising a sterilizing means in the decanter of FIG.

First, the sewage treatment tank 2 equipped with the decanter device 1 of the present invention sequentially bioreactors such as anoxic, anaerobic, and aerobic processes in one single reactor as shown in FIGS. 2 and 5A. SBR (2) to perform.

That is, in the inflow stage (Fill) of the SBR (2), as the sewage flows into the reaction tank, the biodegradation of organic substances and nutrients contained in the wastewater begins by contacting the microorganisms, and ends when the effective volume is reached.

Then, in the next reaction step (React) to remove the contaminants introduced, the organic matter, nitrogen, phosphorus by removing the appropriate combination of oxygen (Anoxic), anaerobic (Oxic) step, and the next, In the settle, solid-liquid separation is performed in the reaction tank to separate the treated material and the microorganism as a precipitate.

Then, the discharge step (Draw) is a step of discharging only the supernatant obtained from the solid-liquid separation without disturbing the precipitated sludge.

Therefore, the decanter device 1 of the present invention is a sewage treatment tank that performs a biological reaction step such as a sewage inflow step, anoxic, anaerobic and aerobic phases, a precipitation step and a discharge step in a single reaction tank, that is, SBR ( It is installed in 2) because it is difficult to discharge the supernatant without the diffusion or inflow of sediment by the conventional method because SBR performs inflow, reaction, sedimentation and discharge in one tank. This is because the decanter device 1 is required.

On the other hand, the decanter device 1 of the present invention is usually installed in the SBR (2), but may be installed in another sewage treatment tank (2), for example, a sedimentation tank in which precipitation of the sediment and discharge of the supernatant is performed. .

Therefore, the decanter device 1 of the present invention is most preferably installed in the SBR 2, but may also be installed in a sedimentation tank where diffusion or inflow of sediment is carried out when the supernatant is discharged, or other sewage treatment. There is no problem with the installation.

On the other hand, below, the present invention, the sewage treatment tank (2) will be described in detail with respect to the decanter device (1) provided in the SBR specifically to discharge the supernatant water.

2, 4 and 5 show the decanter device 1 of the present invention.

That is, as shown in Figs. 4 and 5, the decanter device 1 of the present invention largely crosses the sewage treatment tank 2 as drive means 10 connected to one side of the sewage treatment tank 2. Rotating discharge body 30 provided so as to rotate without leakage, and a portion of the rotating discharge body 30 is formed by cutting the upper portion of the discharge water discharge port 50 configured to discharge only the supernatant and the position during rotation is variable, and the rotation discharge Is connected to the other side of the body 30 is configured to include a supernatant discharge means 70 for supplying the discharged supernatant to the outside.

Therefore, as shown in Figure 3, the decanter device 1 of the present invention because the discharge port 50 is formed by cutting the rotary discharge body 30, according to the rotation state of the rotary discharge body 30 As shown in FIG. 3A, the outlet 50 can effectively block the inflow or accumulation of sediment downwards, or discharge only the supernatant water W after the precipitate has precipitated as in FIG. 3B. .

That is, in the SBSR (2), as shown in Figure 3a, when the precipitation step is carried out through the reaction step, if the rotating discharge body 30 is rotated so that the discharge port 50 is directed downward, even if the precipitate is diffused water pressure and down Due to the nature of the sediment that is settled, it is impossible to inflow or accumulate through the discharge port 50 of the rotary discharge body (30).

On the contrary, as shown in Figure 3b, when the precipitation step is completed in the SBR (2), the precipitation of the sediment is carried out, the rotary discharge body 30 is rotated again, the outlet 50 is directed upwards, then The discharged water 70 described in the upper water is discharged through the discharge port 50 and the discharge pipe 34 and the discharge means 70 of the rotary discharge body 30, the sediment or scum (S) is not introduced. Only the supernatant is discharged smoothly in the state.

At this time, as shown in Figures 4 and 5, the rotary discharge body 30 is composed of one of a cylindrical body or a hollow pipe member, preferably a constant of a synthetic resin such as polyethylene (PE) having a corrosion resistance What is necessary is just to use the pipe of diameter (diameter corresponding to the specification and discharge amount of BSBR (2)).

4 and 5, one side of the rotary discharge body 30 made of the pipe or the like is connected to the driving means 10 described in detail below through a sewage treatment tank 2. The support shaft 32 is connected, and the other side of the rotary discharge body 30 is connected to the discharge means 70 through the sewage treatment tank 2, and the supernatant flowing through the rotary discharge body 30 passes therein. The discharge pipe 34 is connected.

At this time, as shown in Figure 5, the rotary discharge body 2 is connected to the support shaft 32 is sealed, the discharge pipe 34 on the opposite side is connected to the inside of the rotary discharge body 30 The support shaft and the discharge pipe are also synthetic resin moldings made of polyethylene (PEW), reinforced plastic (FRP), etc., which are not actually corroded, and are provided integrally on both side walls of the rotary discharge body 30. Would be more desirable,

2, 4 and 5, the drive means 10 which enables the positional change of the decanter device 1 of the present invention is fixed to the end of the support shaft 32. A rotating disc 12 and a rod 14a on the rotating disc 12 are vertically provided a drive cylinder 14 rotatable and eccentrically connected as a pin.

Therefore, when the drive cylinder 14 is moved up or down, the rotary disc 12 having the cylinder rod 14a eccentrically connected to the rim is a sewage treatment unit as the combined use of the leakage preventing means 90a and 90b described below. The support shaft 32 passing through the wall of the tank 2, that is, the SBR or the settling tank is rotated 180 degrees up and down when viewed from the center thereof, whereby the support shaft 32 is integrally rotated discharge body 30 and The integral discharge port 50 is rotated so that the position is variable in response to the stage of the treatment tank, that is, the precipitation or discharge stage.

At this time, as shown in Figures 4 and 5, the upper discharge water outlet 50 provided in the rotary discharge body 30 is actually a cutout such as the outlet 50 of the cutout outlet of the rotary discharge body 30 It is preferable not to exceed the center line (C of FIG. 5) to allow the inverted body to enter the rotational discharge body in the longitudinal direction, because the strength of the rotational discharge body 30, which is a pipe cut over the center line, becomes weak. to be.

And, as shown in Figure 5, the rotary discharge body 30 of the decanter device 1 of the present invention is a sedimentation treatment tank (2), for example, in the case of a BSR having an acid pipe (4) Of course, the height of precipitation of (6) and the scum (S) of oil or plant components should be located between the floating water surface (8).

On the other hand, as shown in Figure 4 and 5, the discharge means 70 of the decanter device 1 of the present invention is specifically, connected to the other side of the rotary discharge body 30 and the upper water through the inside The rotary joint 72 is connected to the discharge pipe 34 flowing therein to maintain the flow of the supernatant water through the inside, and the internal flow of the rotary joint 72 and the supernatant water is connected to each other, and the supernatant through the pump P. Transfer pipe 76 may be composed of a discharge valve 74 is connected.

Therefore, in FIG. 5, the supernatant water between the sediment 6 and the water surface 8 is upwardly discharged by the rotation of the rotary discharge body 30, and the pump P provided to the supernatant feed pipe 76 is operated. When the discharge valve 74 is operated, the supernatant is smoothly discharged in a state in which the bottom sediment of the sewage treatment tank 2 is not diffused through the transfer pipe and in a state in which the scum S on the water surface does not flow.

At this time, the rotary joint 72, the discharge pipe 34 rotates integrally with the rotary discharge body 30, but because the valve 74 does not rotate is connected between them to compensate for the rotation of the discharge pipe, the upper water (W) It provides a connector function that enables the discharge of water.

And, as shown in Figure 5 and 6, the decanter device 1 of the present invention while acting as a shaft during the rotation of the rotary discharge body 30, the support shaft is fastened through the sewage treatment tank (2) ( 32) and a combined leakage prevention means for leakage prevention and rotation at the passage portion of the sewage treatment tank 2 of the discharge pipe 34 is provided.

That is, as shown in Fig. 5, the combined leakage preventing means 90a of the first embodiment includes a sealing member 92 fixed to the support shaft 32 and the discharge pipe 34, and the sealing member. A bearing member 96 fitted in a 92 and attached to a sealing cover body 94 that is tightly coupled to an opening 2a formed in the sewage treatment tank 2 to enable rotation of a support shaft or discharge pipe. Consists of

Therefore, as shown in FIG. 5, a sealing member 92 prepared according to the diameter of the support shaft 32 and the discharge pipe 34, that is, a packing for preventing leakage is fitted, and the sealing member 92 of this packing is fitted. The outer surface of the bearing member 96 is mounted, the bearing member 96 is covered with the sealing cover body 94 shown to be assembled in two stages in the drawing while the sealing cover body 94 is a sewage treatment tank ( The fixing plate 99 which is fastened to the opening 2a of 2) and which is fixed to the wall of the sewage treatment tank 2 to the outside of the sealing cover body 94 so as to withstand water pressure when necessary is tightly fixed.

Accordingly, as shown in FIG. 5, the driving cylinder 14 of the driving means 10 operates to support the support shaft 32, the rotary discharge body 30, and the discharge pipe 34 connected to the rotating disc 12. When rotating, the sealing member 92 tightly fitted is in close contact with the inner ring 96a of the bearing member 96, and only the outer ring 6b is rotated in the sealing cover body 94 so that the support shaft 32 and the discharge pipe ( Rotation of 34 is performed, and at the same time, leakage is blocked by the sealing member 92 and the sealing cover body 94 as much as possible.

Then, the pressure load against the hydraulic pressure is supported by the external fixing plate 99 fixed to the sewage treatment tank (2).

By the way, the decanter device 1 of the present invention is not used continuously in the actual sewage treatment tank 2, for example, in the case of SBR, the inflow, reaction, precipitation and discharge steps are performed with a time difference, so that the rotary discharge Since the rotation of the body 30 is made intermittently, and the rotation speed thereof is not required to be performed quickly and rapidly, it may be possible to use the rotational leakage preventing means 90b of the second embodiment as shown in FIG. 6.

At this time, as shown in Figure 6, the dual-use water leakage preventing means (90b) of the second embodiment, the disk 98 and the sewage treatment tank provided on the outer peripheral surface of the support shaft 32 and the discharge pipe 34 It may be composed of a disc support 102, the disc 98 is fitted through the sealing member 100 while being tightly fitted in the opening (2a) of the (20).

At this time, the disc 98 and the disc support 102 is preferably formed with a sealing member 100, for example grooves (98a) (102a) to which the O-ring is fitted.

Therefore, even if the support shaft 32, the rotary discharge body 30 and the discharge pipe 34 rotates slowly by the operation of the drive means 10, water is leaked by the sealing member 100, which is an O-ring on both sides. While being prevented, the support shaft and the discharge pipe can be rotated.

Of course, the dual-purpose leakage prevention means 90b of FIG. 6 preferably has a low rotational speed and an intermittent rotation, and in this case, the fixing plate 99 supporting the hydraulic pressure of the treatment tank 2 It is preferable to be fixed to the outside.

Next, as shown in Figure 7, the discharge port 50 on the rotary discharge body 30 may be further provided with sterilization means 110 to sterilize while passing the supernatant.

That is, the sterilization means 110 is a curved sterilization plate which is coated on the discharge port 50 of the rotating discharge body 30 while the silver coating layer 114 and a plurality of supernatant through holes 112 formed on the surface are formed. It can be configured as.

Therefore, when the supernatant is introduced into the discharge port 50 of the rotary discharge body 30 through the passage hole 112 of the sterilization means 110 and discharged, the supernatant water passes through the silver coating layer 114 while being sterilized by silver. Can be.

If the silver coating layer 114 is a curved plate made of synthetic resin, the silver coating layer 114 may form a coating layer by immersing the plate in an aqueous solution containing silver particles or silver sol containing silver nanoparticles. If it is not stainless plate, it may be possible to plate the silver, or it may be possible to treat the silver at a high temperature to fuse the fine silver particles vaporized to form a silver coating layer.

Next, FIG. 8 shows other embodiments of the rotary discharge body 30 of the present invention decanter device 1, which is configured as a quadrangular body as shown in FIG. 8A or as a polygon as shown in FIG. 8B, or as shown in FIG. 8C, It may be possible to form a triangular body, in which case the square or polygonal body will increase the strength of the rotating discharge body, in the case of the triangular body, the outlet 50 will be narrowed upwards, reducing the area of the upper water outlet, but also blocking the inflow of sediment more reliably. I will.

In addition, such a decanter device 1 of the present invention may be provided in the sewage treatment tank 2, in which case the sewage treatment tank 2, the inflow stage, aerobic, anaerobic, anaerobic biological reaction stage, precipitation step And, if the discharge step is the SBR is carried out in time in one tank is most preferably used, and also in the case of the sedimentation tank is carried out only in the sedimentation and supernatant discharge is not a problem in use, this is only an example Of course, it can also be used in other types of sewage treatment tanks to discharge.

Accordingly, the decanter device 1 or the sewage treatment tank 2 having the same according to the present invention has a particularly simple structure while allowing the discharge of only the upper supernatant water without the introduction of scum on the water surface or sediment on the bottom when the upper water is discharged. This is to facilitate the manufacture, installation and maintenance, and to provide water treatment efficiency and cost reduction effect of the overall sewage treatment facility.

Thus, according to the present invention decanter device, sewage treatment tank, in particular, in the continuous batch single reaction tank through the variable position discharge pipe means for varying the position of the supernatant inlet corresponding to the precipitation and discharge step, sediment or The scum outflow of the water level surface is effectively blocked, and the supernatant is discharged, while accumulation of sediment is prevented during precipitation, thereby making it possible to discharge the clean supernatant free of sediment.

In addition, since the structure is simpler than the existing decanter, it is easy to manage devices such as manufacturing, installation, and maintenance, and has an excellent effect of enabling overall cost reduction.

In addition, the SBR, which is the sewage treatment tank of the present invention having the decanter device, provides another advantage of improving the overall sewage treatment efficiency by discharging the clean upper water.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

Claims (9)

In the decanter provided to the sewage treatment tank to discharge the supernatant, One side is connected to the support shaft is connected to the drive means disposed on one side of the sewage treatment tank, the other side is connected to the discharge means through the sewage treatment tank, and the discharged pipe flowing in the supernatant introduced into the sewage treatment tank Rotating discharge body provided to rotate without leaking across; A portion of the upper portion of the rotating discharge body is formed by cutting, the position of the upper portion of the discharge water is configured to discharge only the upper water discharge; And, A supernatant discharge means connected to the other side discharge pipe of the rotary discharge body and configured to discharge the supernatant externally; Decanter device, characterized in that configured to include. The decanter device according to claim 1, wherein the rotary discharge body comprises one of a cylindrical body, a rectangular body, a polygonal body, and a triangular body having a hollow inside. delete The decanter device according to claim 1, wherein the support shaft, the discharge pipe, and the passing portion of the sewage treatment tank are provided with a dual leakage prevention means for preventing leakage and rotation. According to claim 1, wherein the drive means is composed of a drive cylinder provided eccentrically connected vertically to the rotating disc fixed to the end of the support shaft connected to one side of the rotating discharge body to rotate the rotating discharge body in the sewage treatment tank Decanter device characterized in that configured. According to claim 1, wherein the discharge means, the rotary joint is connected to the other discharge pipe of the rotary discharge body and the inner flow of the supernatant is connected to the possible, characterized in that consisting of a discharge valve is connected to the supernatant feed pipe Decanter device. The decanter according to claim 1, further comprising sterilization means for sterilizing while the supernatant passes through the outlet on the rotating discharge body. A continuous batch single reactor (SBR) having a decanter device as set forth in claim 1, having an inflow step, an aerobic, anoxic, anaerobic biological reaction step, a precipitation step, and a discharge step in a tank at a time difference, or Sewage treatment tank consisting of one sedimentation tank where sedimentation and supernatant discharge are carried out. delete

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